CN117223691A - Intelligent trapping system and method for agricultural and forestry pests - Google Patents

Abstract

The application discloses an intelligent trapping system and method for agricultural and forestry pests, and relates to the technical field of agricultural automation and pest control. Wherein, this agriculture and forestry pest intelligent trapping system includes: the energy supply device is arranged at the top of the trapper body, the fixing device is arranged at the bottom of the trapper body, and the trapper body, the insect killing device, the recovery device and the main control computer are sequentially arranged in the trapper body from top to bottom; the main control computer is respectively and electrically connected with the energy supply device, the fixing device, the trapping device, the insecticidal device and the recovery device. The application solves the problems that the pest trapping device in the current stage is inconvenient to install in a mountain high forest dense environment, a large amount of manual installation and maintenance are required, and the intelligent pest trapping device solar panel is extremely easy to influence and difficult to achieve a good monitoring effect; in addition, the lure of the existing trapping device needs to be replaced periodically, so that a great deal of manpower is consumed for lure replacement and maintenance, and the labor intensity of workers is high.

Description

Intelligent trapping system and method for agricultural and forestry pests

Technical Field

The application relates to the technical fields of agricultural automation and pest control, in particular to an intelligent trapping system and method for agricultural and forestry pests.

Background

The first natural enemy in the tree growth process is various pests, and the pests attack or parasitize the trees, so that the trees have a series of abnormal changes in morphology, tissues or physiology, the growth and development are poor, the yield and quality are reduced, and even the death and the ecological environment deterioration of the trees or the whole forest stand are caused. In order to better ensure the growth of the tree, people help the tree to remove pests by manually using various trapping devices and monitoring systems, so that the early warning and the prevention and the control of the tree pests are realized.

The pest trapping device in the current stage is inconvenient to install in a mountain high forest dense environment, a large amount of manual installation and maintenance are required, the intelligent pest trapping device solar panel is easily influenced by dense crowns, the installation position is limited to select, and a good monitoring effect is difficult to achieve; in addition, the lure of the existing trapping device needs to be replaced regularly for 1-2 months, so that the lure replacement and maintenance are required to consume a large amount of manpower, and the labor intensity of workers is high. In view of the above-mentioned problems, no effective solution has been proposed yet.

Disclosure of Invention

The application aims to: an intelligent trapping system and method for agricultural and forestry pests is provided to solve the above problems in the prior art.

The technical scheme is as follows: agriculture and forestry pest intelligent trapping system includes:

the energy supply device is arranged at the top of the trapper body, the fixing device is arranged at the bottom of the trapper body, and the trapper device, the insect killing device, the recovery device and the main control computer are sequentially arranged in the trapper body from top to bottom;

the main control computer is respectively and electrically connected with the energy supply device, the fixing device, the trapping device, the insecticidal device and the recovery device;

the main control computer sends out control signals to respectively control the energy supply device, the fixing device, the trapping device, the insecticidal device and the recovery device to act, so that the intelligent trapping system can automatically enter soil for fixing and filling the trapping cores.

Preferably, the main control computer includes: the device comprises an energy supply device control unit for controlling the action of the energy supply device, a trapping device control unit for controlling the action of the trapping device, an insecticidal device control unit for controlling the action of the insecticidal device, a recovery device control unit for controlling the action of the recovery device, a fixing device control unit for controlling the action of the fixing device, a detection unit, a data processing unit, an image processing unit and an information storage unit.

Preferably, the power supply device includes: the solar energy trapper comprises a trapper body, and is characterized by comprising a supporting column body inserted into the top of the trapper body, wherein a solar energy folding plate is arranged at the top of the supporting column body, an induction module is arranged on the solar energy folding plate, a height adjusting module is arranged at the bottom of the supporting column body, and an angle adjusting module is arranged above the height adjusting module.

Preferably, the solar folding plate includes: the folding module is arranged on the outer surface of the support column in a sliding mode, a central plate is arranged at the top of the support column, a first side plate, a second side plate, a third side plate and a fourth side plate are arranged around the central plate respectively, and the folding module is connected with the first side plate, the second side plate, the third side plate and the fourth side plate respectively.

Preferably, the trapping device comprises: the insect attracting device comprises an insect attracting vacuum storage cabin, wherein an automatic filling module is arranged at the bottom of the insect attracting vacuum storage cabin, and an insect attracting module is arranged on one side of the automatic filling module.

Preferably, the insecticidal device comprises: the gas filling chamber is internally provided with an insecticidal chamber, a plurality of unidirectional ventilation holes are formed between the insecticidal chamber and the gas filling chamber, a detection module is arranged in the insecticidal chamber, and an insecticidal cabin door is further arranged in the insecticidal chamber.

Preferably, the recovery device includes: the gravity induction cabin door is arranged between the insect killing device and the recycling device, and a recycling box for collecting pests is arranged at the bottom of the gravity induction cabin door.

Preferably, the fixing device includes: the fixed module of ground of locating trap body bottom and set up in the fixed module of ground of trap body bottom surface, the fixed module of ground includes: the ground contact end of a plurality of support is provided with the cone, the fixed module in ground includes: the drill motor, the output of drill motor is provided with the drill, be provided with week distribution probe in the drill.

In order to achieve the above object, according to another aspect of the present application, there is provided an intelligent trapping method for agricultural and forestry pests.

The intelligent trapping method for the agricultural and forestry pests comprises the intelligent trapping system for the agricultural and forestry pests; the method also comprises the following steps:

s1: installation of a system

S1.1, firstly, placing a system at a specified position; then, a main control computer is utilized to send a fixing instruction to a fixing device control unit; then, the fixing device control unit receives a fixing instruction, controls the drill motor to work and drives the drill to rotate into the ground, controls the depth of penetration according to the length of the drill, and stops working after the maximum length of the drill is reached; finally, the peripherally distributed probes are ejected to the periphery of the drill bit, so that the drill bit is firmly fixed at the ground, and meanwhile, the support automatically touches the ground, so that the system is more firmly fixed, and signals are transmitted to the control unit of the energy supply device after the system is fixed;

s1.2, firstly, after receiving a signal that the fixing device control unit finishes fixing, the energy supply device control unit controls the height adjustment module to move upwards until an illumination sensor in an induction module on the solar folding plate senses sunlight, and the height adjustment action is stopped; secondly, the folding module acts, the folding sliding blocks move upwards on the sliding rails, so that the long rods and the short rods move to control the solar folding plates to unfold the first side plate, the second side plate, the third side plate and the fourth side plate, and when the four side plates are positioned on the same horizontal plane, the first display plate and the second display plate in the first side plate and the third display plate and the fourth display plate in the second side plate unfold to two sides simultaneously to form a whole rectangular-surface solar panel; finally, the first angle module and the second angle module in the angle adjustment module act cooperatively to ensure that the whole rectangular surface can be irradiated by sunlight;

s1.3, firstly, placing the lure into a lure vacuum storage cabin in a trapping device, turning on a trap lamp in a lure module, and further setting lure filling or replacing time of an automatic filling module through a main control computer; secondly, opening a cabin door of the gas filling chamber, putting solid particles attracting pests into the gas filling chamber, and closing the cabin door; finally, placing the recovery box for recovering the pests under the gravity sensing cabin door;

through the steps, the installation and the arrangement of the pest trapping system with the automatic soil-entering filling trapping core are completed, and the pest trapping system can start to work;

s2: pest trapping system operation

S2.1, the trapping device automatically fills or replaces trapping cores periodically according to trapping core filling time set by a user; firstly, a recovery cabin door of an automatic filling module is opened for a preset time, and then the cabin door is closed; then the filling cabin door is opened, the lure in the lure vacuum storage cabin falls to the lure fixing groove along the cabin door along the lure conveying pipe, so that the placement of the lure in the lure module is completed, the lure smell is dispersed to the periphery of the pest trapping system through air, and when the pest approaches to the vicinity of the pest trapping system, the lure smell further passes through the lure module beside the trapping device, and is collided to the baffle under the double attraction of smell and lamplight and falls to the pest killing device;

s2.2, the pest killing device uses a detection module to shoot the fallen pests, uploads the pictures to an image processing unit in a main control computer, performs image preprocessing, and then further delivers the pictures to a data processing unit to judge and classify the pests and judge pest hazard early warning grades, and transmits the processing results to an information storage unit or uploads the processing results to a supervision terminal matched with the pest trapping system in real time;

s2.3, when pests are piled up at the bottom of the pest killing chamber, and the weight of the pests on the upper side of the gravity sensing cabin door in the recovery device reaches the threshold value of the gravity sensing cabin door pressure sensor, the gravity sensing cabin door is automatically opened, and piled pest carcasses automatically drop into a recovery box right below the gravity sensing cabin door;

the whole pest trapping work is completed through the steps.

Preferably, after completing a complete pest trapping operation, the method further comprises:

s3: dismantling system by using one key of main control computer

S3.1, the main control computer sends a dismantling instruction to the energy supply device control unit; firstly, an energy supply device control unit controls an angle adjustment module to correct an angle so that a rectangular surface is perpendicular to a trap body; secondly, the energy supply device control unit controls the first display board and the second display board in the first side board and the third display board and the fourth display board in the second side board to retract simultaneously; then, the folding module acts to enable the folding sliding block to move downwards along the sliding rail, and the long rod and the short rod are controlled to move downwards to recover the first side plate, the second side plate, the third side plate and the fourth side plate; finally, the height adjusting module controls the energy supply device to be reduced to the lowest position;

s3.2, after the solar folding plate is retracted, the fixing device control unit further sends a dismantling instruction to the fixing device; firstly, retracting the circumference distribution probes from the circumference of the ground to the inside of the drill bit; secondly, the drill bit motor reverses, so that the drill bit is driven to reverse and leave the ground, and the trap body is gradually retracted; finally, the fixing device control unit controls the ground contact support to reversely lift off;

the removal of the pest trapping system is accomplished by the above steps.

The beneficial effects are that: in the embodiment of the application, the automatic soil-entering fixing and core-filling manner is adopted, the main control computer sends out control signals to respectively control the energy supply device, the fixing device, the trapping device, the insecticidal device and the recovery device to act, so that the intelligent trapping system can automatically enter into the soil for fixing and filling the core-filling manner, the aim of automatically entering into the soil for fixing and filling the core-filling manner is fulfilled, the technical effects of reducing the labor intensity of workers and improving the intelligent degree are realized, the problem that the pest trapping device at the present stage is inconvenient to install in a mountain high forest dense environment and needs to consume a large amount of manual installation and maintenance is solved, the intelligent pest trapping device solar panel is extremely easy to be influenced by dense crowns, the installation position is limited, and the good monitoring effect is difficult to achieve; in addition, the lure of the existing trapping device needs to be replaced regularly for 1-2 months, so that the lure replacement and maintenance are required to consume a large amount of manpower, and the labor intensity of workers is high.

Drawings

Fig. 1 is a schematic structural view of an intelligent trapping system for agricultural and forestry pests according to an embodiment of the present application;

FIG. 2 is a schematic diagram of the operational status of an intelligent agricultural and forestry pest trapping system according to an embodiment of the present application;

FIG. 3 is a schematic cross-sectional structural view of an intelligent agricultural and forestry pest trapping system according to an embodiment of the present application;

FIG. 4 is a schematic diagram of the energy supply device structure of the intelligent trapping system for agricultural and forestry pests according to the embodiment of the present application;

fig. 5 is a schematic perspective view of a trapping device of an intelligent trapping system for agricultural and forestry pests according to an embodiment of the present application;

fig. 6 is a schematic perspective view of another trapping device of the intelligent trapping system for agricultural and forestry pests according to the embodiment of the present application

Fig. 7 is a schematic perspective view of still another trapping device of the intelligent trapping system for agricultural and forestry pests according to the embodiment of the present application;

fig. 8 is a schematic view of a fixing device structure of an intelligent trapping system for agricultural and forestry pests according to an embodiment of the present application;

fig. 9 is a schematic structural view of an insecticidal device of an intelligent trapping system for agricultural and forestry pests according to an embodiment of the present application.

The reference numerals are:

1. an energy supply device; 2. a trap body; 3. a trapping device; 4. a main control computer; 5. a fixing device; 6. an insecticidal device; 7. a recovery device;

1-1, a solar folding plate; 1-2, an angle adjusting module; 1-3, a height adjusting module;

1-1-1, a center plate; 1-1-2, a first side plate; 1-1-3, a second side plate; 1-1-4, a third side plate; 1-1-5, a fourth side plate; 1-1-6, folding module;

3-1, attracting the vacuum storage cabin; 3-2, an automatic filling module; 3-3, an insect attracting module; 3-4, baffle plates;

3-2-1, filling cabin doors; 3-2-2, lure core conveying pipe; 3-2-3, recovering cabin doors;

3-3-1, trap lamp; 3-3-2, a lure fixing groove; 3-3-3, attracting cores;

5-1, a ground fixing module; 5-2, a ground fixing module; 5-2-1, a drill bit capable of automatically entering soil; 5-2-2, circumferentially distributed probes;

6-1, a gas filling chamber; 6-2, an insecticidal room; 6-3, one-way ventilation holes; 6-4, insecticidal cabin doors; 6-5, a detection module; 6-6, a lighting module.

Detailed Description

In order that those skilled in the art will better understand the present application, a technical solution in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, shall fall within the scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present application and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe the embodiments of the application herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Furthermore, the terms "mounted," "configured," "provided," "connected," "coupled," and "sleeved" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other. The application will be described in detail below with reference to the drawings in connection with embodiments.

As shown in fig. 1-3, the present application relates to an intelligent trapping system and method for agricultural and forestry pests. This agriculture and forestry pest intelligent trapping system includes: the insect trap comprises a trap body 2, wherein an energy supply device 1 is arranged at the top of the trap body 2, a fixing device 5 is arranged at the bottom of the trap body, and a trap device 3, an insect killing device 6, a recovery device 7 and a main control computer 4 are sequentially arranged in the trap body 2 from top to bottom; the main control computer 4 is internally provided with a plurality of control circuits to realize the function coordination between the devices and the modules, and is provided with a positioning instrument to enable a user to accurately position the pest trapping system in a large-scale area, thereby determining the pest area.

The main control computer 4 is respectively and electrically connected with the energy supply device 1, the fixing device 5, the trapping device 3, the insecticidal device 6 and the recovery device 7; good electric signal transmission effect can be realized, so that cooperative work among devices is realized.

The main control computer 4 sends out control signals to respectively control the energy supply device 1, the fixing device 5, the trapping device 3, the insecticidal device 6 and the recovery device 7 to enable the intelligent trapping system to automatically enter soil for fixing and filling the trapping cores. The main control computer 4 sends out control signals to control other devices to act respectively, so that the effects of automatic soil entering fixation and core attraction filling of the system can be achieved, the effect of intelligent operation is achieved, and further the complexity of manual operation is reduced.

From the above description, it can be seen that the following technical effects are achieved:

in the embodiment of the application, the automatic soil-entering fixing and core-filling mode is adopted, the main control computer 4 sends out control signals to respectively control the energy supply device 1, the fixing device 5, the trapping device 3, the pest killing device 6 and the recovery device 7 to act, so that the intelligent trapping system can automatically enter the soil for fixing and filling the core-filling mode, the aim of automatically entering the soil for fixing and filling the core-filling mode is achieved, the technical effects of reducing the labor intensity of workers and improving the intelligent degree are realized, the problem that the pest trapping device 3 in the current stage is inconvenient to install in a mountain high forest dense environment and needs to consume a large amount of manual installation and maintenance is solved, the intelligent pest trapping device 3 solar panel is extremely easy to be influenced by a dense canopy, the installation position is limited, and a good monitoring effect is difficult to achieve; in addition, the lure of the existing trapping device 3 needs to be replaced regularly for 1-2 months, so that the lure replacement and maintenance are required to consume a great deal of manpower, and the technical problem of high labor intensity of workers is solved.

Further, the main control computer 4 includes: the device comprises an energy supply device 1 control unit for controlling the action of the energy supply device 1, a trapping device 3 control unit for controlling the action of the trapping device 3, an insecticidal device 6 control unit for controlling the action of the insecticidal device 6, a recovery device 7 control unit for controlling the action of the recovery device 7, a fixing device 5 control unit for controlling the action of the fixing device 5, a detection unit, a data processing unit, an image processing unit and an information storage unit. The host computer 4 is the hub for data transfer of the units.

As shown in fig. 4, the power supply device 1 includes: the solar energy trapper comprises a supporting column body inserted into the top of a trapper body 2, a solar energy folding plate 1-1 is arranged at the top of the supporting column body, an induction module is arranged on the solar energy folding plate 1-1, a height adjusting module 1-3 is arranged at the bottom of the supporting column body, and an angle adjusting module 1-2 is arranged above the height adjusting module 1-3.

Specifically, the solar folding plate 1-1, the angle adjusting module 1-2 and the height adjusting module 1-3 are sequentially arranged along the vertical direction; the sensing module consists of an illumination sensor and a humidity sensor, wherein the illumination sensor can sense the intensity of sunlight, and the humidity sensor can judge whether the weather is good or bad, so that the folding condition of the solar folding plate 1-1 is adjusted; the angle adjustment module can adjust the angle of the solar folding plate 1-1 according to the change of illumination intensity, ensures that the solar folding plate has positive direction, realizes automatic sunlight tracking, and comprises: the first angle module is responsible for adjusting the angle of the XOY plane, and the second angle module is responsible for adjusting the angle of the Z direction; the height adjusting module 1-3 can automatically adjust the height of the solar folding plate 1-1 in a telescopic manner when the solar folding plate 1-1 is positioned in a metallocene forest, so that the solar folding plate can reach a height with more sufficient illumination. Still further, the power supply device 1 further includes: and the storage battery is used for providing energy for the operation of the pest trapping system.

Further, the solar folding board 1-1 includes: the folding column comprises a plurality of folding modules 1-1-6 which are slidably arranged on the outer surface of the supporting column body, a central plate 1-1-1 is arranged at the top of the supporting column body, a first side plate 1-1-2, a second side plate 1-1-3, a third side plate 1-1-4 and a fourth side plate 1-1-5 are respectively arranged around the central plate 1-1-1, and the folding modules 1-1-6 are respectively connected with the first side plate 1-1-2, the second side plate 1-1-3, the third side plate 1-1-4 and the fourth side plate 1-1-5.

Specifically, the solar folding board 1-1 includes: the central plate 1-1-1, the first side plate 1-1-2, the second side plate 1-1-3, the third side plate 1-1-4, the fourth side plate 1-1-5 and the folding module 1-1-6 can convert solar energy into electric energy and store the electric energy so as to provide energy for the normal operation of the pest trapping system; the first side plate 1-1-2 includes: the first display board and the second display board, the second side board 1-1-3 comprises a third display board and a fourth display board; the folding modules 1-1-6 comprise: the solar folding plate comprises long rods, short rods, folding sliding blocks and sliding rails, wherein the number of the long rods is 2, the long rods are symmetrically distributed, the number of the short rods is 2, the short rods are symmetrically distributed, one ends of the long rods and the short rods are connected with the folding sliding blocks, the other ends of the long rods and the short rods are connected with the bottoms of the side plates, the folding sliding blocks and the sliding rails are distributed along the circumference of the supporting column body in four equal parts, and the folding sliding blocks are in sliding connection with the sliding rails, so that the solar folding plate 1-1 is unfolded and recycled.

As shown in fig. 5-7, the trapping device 3 includes: the insect attracting device comprises an insect attracting vacuum storage cabin 3-1, wherein an automatic filling module 3-2 is arranged at the bottom of the insect attracting vacuum storage cabin 3-1, and an insect attracting module 3-3 is arranged on one side of the automatic filling module 3-2.

Specifically, the trapping device 3 includes: the device comprises a core-attracting vacuum storage cabin 3-1, an automatic filling module 3-2, a pest attracting module 3-3 and a baffle 3-4; the lure vacuum storage cabin 3-1 is used for storing lures, and the vacuum environment is favorable for reducing volatilization of lure odor; the automatic filling module 3-2 includes: a filling cabin door 3-2-1, a core-attracting conveying pipe 3-2-2 and a recovery cabin door 3-2-3 are sequentially arranged from top to bottom; the insect attracting module 3-3 comprises: trap lamp 3-3-1, trap core fixing groove 3-3-2 and trap core 3-3-3; the lure fixing groove 3-3-2 is connected with the filling cabin door 3-2-1 through the lure conveying pipe 3-2-2, so that the automatically filled lure 3-3 can reach the placing position, and the recovery cabin door 3-2-3 is positioned below the lure fixing groove 3-3-2; the trap lamp 3-3-1 can emit a certain illumination color for attracting pests, the trap core 3-3 can emit a certain smell for attracting the pests, and the combination of the two can increase the success rate of trapping the pests; the baffle plate 3-4 is connected with one side of the lure conveying pipe 3-2-2, and the baffle plate 3-4 can enable the trapped pests to smoothly fall into the pest killing device 6 when being impacted.

As shown in fig. 9, the insecticidal device 6 includes: the gas filling chamber 6-1, wherein an insecticidal chamber 6-2 is arranged in the gas filling chamber 6-1, a plurality of unidirectional ventilation holes 6-3 are formed between the insecticidal chamber 6-2 and the gas filling chamber 6-1, a detection module 6-5 is arranged in the insecticidal chamber 6-2, and an insecticidal cabin door 6-4 is further arranged in the insecticidal chamber 6-2.

Specifically, the insecticidal device 6 includes: the insecticidal cabin door 6-4, the insecticidal chamber 6-2, the detection module 6-5, the illumination module 6-6 and the gas filling chamber 6-1; the detection module 6-5 is arranged in the insecticidal room 6-2 and consists of an infrared camera for photographing pests falling into the insecticidal room 6-2; the insecticidal cabin door 6-4 is arranged at one side of the cavity, and the insecticidal cabin door 6-4 can be automatically closed according to a photographing result, so that the insecticidal room 6-2 becomes a closed space; a plurality of unidirectional ventilation holes 6-3 are formed between the pest killing chamber 6-2 and the gas filling chamber 6-1, the unidirectional ventilation holes 6-3 are small round holes through which countless unidirectional gases circulate, and when pests exist in the pest killing chamber 6-2, certain gases which are present in the gas filling chamber 6-1 and have fatal damage to the pests enter the pest killing chamber 6-2 through the unidirectional ventilation small round holes, so that the pests are killed.

Further, the recovery device 7 includes: the gravity sensing cabin door is arranged between the insect killing device 6 and the recycling device 7, and a recycling box for collecting pests is arranged at the bottom of the gravity sensing cabin door.

Specifically, the recovery device 7 includes: a gravity sensing hatch and a recovery box; when the number of dead pests in the pest killing chamber 6-2 reaches a certain weight, the gravity sensing cabin door between the pest killing device 6 and the recovery device 7 can automatically open and close the cabin door according to the threshold information set by the gravity sensor.

As shown in fig. 8, the fixing device 5 includes: the ground fixing module 5-2 inserted in the bottom of the trap body 2 and the ground fixing module 5-1 arranged on the outer surface of the bottom of the trap body 2, wherein the ground fixing module 5-1 comprises: the ground contact end of a plurality of support is provided with the cone, the fixed module of ground 5-2 includes: the drill motor, the output of drill motor is provided with the drill, be provided with week distribution probe 5-2-2 in the drill.

Specifically, the fixing device 5 includes: a ground fixing module 5-1 and a ground fixing module 5-2; the ground fixing module 5-1 is an automatically retractable bracket, and the ground contact end of the bracket is designed to be conical and can be placed into the ground to a certain depth when the ground contact is performed; the ground fixing module 5-2 is a drill bit 5-2-1, a peripherally distributed probe 5-2-2 and a drill bit motor which automatically enters the soil; the circumference distribution probes 5-2-2 are hidden in the drill bit, and when the drill bit reaches a certain depth in the ground, the circumference distribution probes 5-2-2 are ejected to the periphery of the drill bit, so that the soil-entering part of the pest trapping system is firmly fixed at the ground; the combination of the two ensures that the pest trapping system can be firmly fixed at a certain position and the influence of the environment and non-operators.

The application also provides an intelligent trapping method for the agricultural and forestry pests, which comprises the intelligent trapping system for the agricultural and forestry pests; the method also comprises the following steps:

s1: installation of a system

S1.1, firstly, placing a system at a specified position; then, a main control computer 4 is utilized to send a fixing instruction to a control unit of the fixing device 5; then, the control unit of the fixing device 5 receives a fixing instruction, controls the drill motor to work and drives the drill to rotate into the ground, and the control unit of the fixing device 5 controls the depth of penetration according to the length of the drill, and stops working after the maximum length of the drill is reached; finally, the peripherally distributed probes 5-2-2 are ejected to the periphery of the drill bit, so that the drill bit is firmly fixed at the ground, and meanwhile, the support automatically touches the ground, so that the system is firmly fixed, and signals are transmitted to a control unit of the energy supply device 1 after the system is fixed;

specifically, firstly, a user brings the system to an area where insect condition detection is required and determines an installation position; secondly, the pest trapping system is vertical to Lin Jianshu wood and parallel, and the drill bit is vertical to the ground; then, a main control computer 4 is utilized to send a fixing instruction to a control unit of the fixing device 5; then, the control unit of the fixing device 5 receives a fixing instruction, controls the drill motor to work and drives the drill to rotate into the ground, and the control unit of the fixing device 5 controls the depth of penetration according to the length of the drill, and stops working after the maximum length of the drill is reached; finally, the peripherally distributed probes 5-2-2 are ejected to the periphery of the drill bit, so that the drill bit is firmly fixed at the ground, and meanwhile, the support automatically touches the ground, so that the system is firmly fixed, and signals are transmitted to a control unit of the energy supply device 1 after the system is fixed.

S1.2, firstly, after receiving a signal that the control unit of the energy supply device 1 finishes fixing, the control unit of the fixing device 5 controls the height adjusting module 1-3 to move upwards until an illumination sensor in an induction module on the solar folding plate 1-1 senses sunlight, and stopping the height adjusting action; secondly, the folding module 1-1-6 acts, the folding sliding block moves upwards on the sliding rail, and then the long rod and the short rod move to control the solar folding board 1-1 to unfold the first side board 1-1-2, the second side board 1-1-3, the third side board 1-1-4 and the fourth side board 1-1-5, when the four side boards are positioned on the same horizontal plane, the first display board and the second display board in the first side board 1-1-2 and the third display board and the fourth display board in the second side board 1-1-3 unfold to two sides at the same time, so that a whole rectangular-surface solar panel is formed; finally, the first angle module and the second angle module in the angle adjustment module 1-2 act cooperatively to ensure that the whole rectangular surface can be irradiated by sunlight;

specifically, in the second step, firstly, after receiving a signal that the fixing device 5 control unit finishes fixing, the energy supply device 1 control unit controls the height adjustment module 1-3 to move upwards until the illumination sensor in the sensing module on the solar folding plate 1-1 senses the sun illumination, and the height adjustment action is stopped; secondly, the folding module 1-1-6 acts, the folding sliding block moves upwards on the sliding rail, and then the long rod and the short rod move to control the solar folding board 1-1 to unfold the first side board 1-1-2, the second side board 1-1-3, the third side board 1-1-4 and the fourth side board 1-1-5, when the four side boards are positioned on the same horizontal plane, the first display board and the second display board in the first side board 1-1-2 and the third display board and the fourth display board in the second side board 1-1-3 unfold to two sides at the same time, so that a whole rectangular-surface solar panel is formed; finally, the first angle module and the second angle module in the angle adjustment module 1-2 act cooperatively to ensure that the whole rectangular surface can be irradiated by sunlight.

S1.3, firstly, placing the lure into a lure vacuum storage cabin 3-1 of a trapping device 3, opening a trap lamp in a lure module 3-3, and further setting lure filling or replacing time of an automatic filling module 3-2 through a main control computer 4; secondly, opening a door of the gas filling chamber 6-1, putting solid particles attracting pests into the gas filling chamber 6-1, and closing the door; finally, placing the recovery box for recovering the pests under the gravity sensing cabin door;

specifically, the third step, firstly, a user manually puts the lure into a lure vacuum storage cabin 3-1 in a trapping device 3, turns on a lure lamp in a lure module 3-3, and further sets lure filling or replacing time of an automatic filling module 3-2 through a main control computer 4; secondly, opening a cabin door of the gas filling chamber 6-1, putting certain solid particles which can ferment in the air and give out the smell of killing harmful insects into the gas filling chamber 6-1, and closing the cabin door; and finally, placing a recovery box required for recovering the pests under the gravity sensing cabin door.

Through the steps, the installation and the arrangement of the pest trapping system with the automatic soil-entering filling trapping core are completed, and the pest trapping system can start to work;

s2: pest trapping system operation

S2.1, the trapping device 3 is used for automatically filling or replacing trapping cores periodically according to the trapping core filling time set by a user; firstly, a recovery cabin door of the automatic filling module 3-2 is opened for a preset time, and then the cabin door is closed; then the filling cabin door is opened, the lure in the lure vacuum storage cabin 3-1 falls to the lure fixing groove along the cabin door along the lure conveying pipe, so that the placement of the lure in the lure module 3-3 is completed, the lure smell is dispersed to the periphery of the pest trapping system through air, and when pests are close to the pest trapping system, the lure smell further passes through the lure module 3-3 beside the trapping device 3, and is collided to the baffle under the double attraction of smell and lamplight and falls to the pest killing device 6;

specifically, in the first step, the trapping device 3 automatically fills or replaces the trapping cores periodically according to the trapping core filling time set by the user. Firstly, a recovery cabin door of the automatic filling module 3-2 is opened for a certain time, and then the cabin door is closed; then the filling cabin door is opened, the lure in the lure vacuum storage cabin 3-1 falls to the lure fixing groove along the cabin door along the lure conveying pipe, so that the placement of the lure in the lure module 3-3 is completed, the lure smell is dispersed to the periphery of the pest trapping system through air, the attention of pests is attracted, when the lure comes near the pest trapping system along the smell, the lure is further attracted by the lamplight color of the trap lamp through a slot beside the trapping device 3, and under the double attraction of the smell and the lamplight, the moth is knocked against the baffle plate in a fire-extinguishing manner and falls to the pest killing device 6.

S2.2, the pest killing device 6 uses a detection module to shoot the fallen pests, uploads the pictures to an image processing unit in the main control computer 4, performs image preprocessing, and then gives the pictures to a data processing unit to judge and classify the pests and judge pest hazard early warning grades, and transmits the processing results to an information storage unit or uploads the processing results to a supervision terminal matched with the pest trapping system in real time;

specifically, in the second step, the pest killing device 6 uses the detection module to shoot the dropped pests, and uploads the pictures to the image processing unit in the main control computer 4 to perform image noise reduction, enhancement and other treatments, and further gives the pictures to the data processing unit to judge and classify the pests and judge pest hazard early warning grades, and transmits the treatment results to the information storage unit or uploads the treatment results to the supervision terminal matched with the pest trapping system in real time; the control unit of the insecticidal device 6 performs one of the following two operations according to the discrimination result:

1. not the pest falls. Disregarding, waiting for photographing of the falling object next time:

2. dropped is a pest. Firstly, controlling the closing of the insecticidal cabin door to ensure that the insecticidal chamber 6-2 is a closed space; secondly, small round holes through which countless unidirectional gases circulate between the gas filling chamber 6-1 and the insecticidal chamber 6-2 are opened, gas which is generated by fermenting solid particles in the gas filling chamber 6-1 in the air and has fatal injury taste to pests permeates into the insecticidal chamber 6-2 along the small round holes, and the pests which possibly survive after striking the baffle plate are killed and accumulated at the bottom of the insecticidal chamber 6-2, and the gravity sensing cabin door upper side in the recovery device 7.

S2.3, when pests are piled up at the bottom of the pest killing chamber 6-2, and the weight of the pests at the upper side of the gravity sensing cabin door in the recovery device 7 reaches the threshold value of the gravity sensing cabin door pressure sensor, the gravity sensing cabin door is automatically opened, and piled pest corpses automatically drop into a recovery box right below the gravity sensing cabin door;

the whole pest trapping work is completed through the steps.

Further, after completing a complete pest trapping operation, the method further comprises:

s3: dismantling system by using main control computer 4 to dismantle by one key

S3.1, the main control computer 4 sends a dismantling instruction to a control unit of the energy supply device 1; firstly, a control unit of the energy supply device 1 controls the angle adjusting module 1-2 to return to a positive angle, so that a rectangular surface is vertical to the trapper body 2; secondly, the control unit of the energy supply device 1 controls the first display board and the second display board in the first side board 1-1-2 and the third display board and the fourth display board in the second side board 1-1-3 to retract simultaneously; then, the folding module 1-1-6 acts to enable the folding sliding block to move downwards along the sliding rail, and the long rod and the short rod are controlled to move downwards to recycle the first side plate 1-1-2, the second side plate 1-1-3, the third side plate 1-1-4 and the fourth side plate 1-1-5; finally, the height adjusting module 1-3 controls the energy supply device 1 to be lowered to the lowest position;

s3.2, after the solar folding plate 1-1 is retracted, the control unit of the fixing device 5 further sends a dismantling instruction to the fixing device 5; firstly, the circumference distribution probe 5-2-2 is retracted into the drill bit from the periphery of the ground; secondly, the drill bit motor reverses, so that the drill bit is driven to reverse and leave the ground, and the trap body 2 is gradually retracted; finally, the control unit of the fixing device 5 controls the ground contact support to reversely lift off;

the removal of the pest trapping system is accomplished by the above steps.

The preferred embodiments of the present application have been described in detail above with reference to the accompanying drawings, but the present application is not limited to the specific details of the above embodiments, and various equivalent changes can be made to the technical solutions of the present application within the scope of the technical concept of the present application, and these equivalent changes all fall within the scope of the present application.

Claims (10)

1. Agriculture and forestry pest intelligent trapping system, its characterized in that includes: the energy supply device is arranged at the top of the trapper body, the fixing device is arranged at the bottom of the trapper body, and the trapper device, the insect killing device, the recovery device and the main control computer are sequentially arranged in the trapper body from top to bottom;

the main control computer is respectively and electrically connected with the energy supply device, the fixing device, the trapping device, the insecticidal device and the recovery device;

the main control computer sends out control signals to respectively control the energy supply device, the fixing device, the trapping device, the insecticidal device and the recovery device to act, so that the intelligent trapping system can automatically enter soil for fixing and filling the trapping cores.

2. The intelligent agricultural and forestry pest trapping system of claim 1, wherein the master control computer includes: the device comprises an energy supply device control unit for controlling the action of the energy supply device, a trapping device control unit for controlling the action of the trapping device, an insecticidal device control unit for controlling the action of the insecticidal device, a recovery device control unit for controlling the action of the recovery device, a fixing device control unit for controlling the action of the fixing device, a detection unit, a data processing unit, an image processing unit and an information storage unit.

3. The intelligent agricultural and forestry pest trapping system according to claim 1, wherein said energy supply means includes: the solar energy trapper comprises a trapper body, and is characterized by comprising a supporting column body inserted into the top of the trapper body, wherein a solar energy folding plate is arranged at the top of the supporting column body, an induction module is arranged on the solar energy folding plate, a height adjusting module is arranged at the bottom of the supporting column body, and an angle adjusting module is arranged above the height adjusting module.

4. The intelligent agricultural and forestry pest trapping system according to claim 3, wherein the solar folding plate includes: the folding module is arranged on the outer surface of the support column in a sliding mode, a central plate is arranged at the top of the support column, a first side plate, a second side plate, a third side plate and a fourth side plate are arranged around the central plate respectively, and the folding module is connected with the first side plate, the second side plate, the third side plate and the fourth side plate respectively.

5. The intelligent agricultural and forestry pest trapping system according to claim 1, wherein said trapping device includes: the insect attracting device comprises an insect attracting vacuum storage cabin, wherein an automatic filling module is arranged at the bottom of the insect attracting vacuum storage cabin, and an insect attracting module is arranged on one side of the automatic filling module.

6. The intelligent agricultural and forestry pest trapping system according to claim 1, wherein said pest killing device includes: the gas filling chamber is internally provided with an insecticidal chamber, a plurality of unidirectional ventilation holes are formed between the insecticidal chamber and the gas filling chamber, a detection module is arranged in the insecticidal chamber, and an insecticidal cabin door is further arranged in the insecticidal chamber.

7. The intelligent agricultural and forestry pest trapping system according to claim 1, wherein said recovery device includes: the gravity induction cabin door is arranged between the insect killing device and the recycling device, and a recycling box for collecting pests is arranged at the bottom of the gravity induction cabin door.

8. The intelligent agricultural and forestry pest trapping system according to claim 1, wherein said fixture includes: the fixed module of ground of locating trap body bottom and set up in the fixed module of ground of trap body bottom surface, the fixed module of ground includes: the ground contact end of a plurality of support is provided with the cone, the fixed module in ground includes: the drill motor, the output of drill motor is provided with the drill, be provided with week distribution probe in the drill.

9. An intelligent trapping method for agricultural and forestry pests, which is characterized by comprising the intelligent trapping system for agricultural and forestry pests according to any one of claims 1 to 8; the method also comprises the following steps:

s1: installation of a system

S1.1, firstly, placing a system at a specified position; then, a main control computer is utilized to send a fixing instruction to a fixing device control unit; then, the fixing device control unit receives a fixing instruction, controls the drill motor to work and drives the drill to rotate into the ground, controls the depth of penetration according to the length of the drill, and stops working after the maximum length of the drill is reached; finally, the peripherally distributed probes are ejected to the periphery of the drill bit, so that the drill bit is firmly fixed at the ground, and meanwhile, the support automatically touches the ground, so that the system is more firmly fixed, and signals are transmitted to the control unit of the energy supply device after the system is fixed;

s1.2, firstly, after receiving a signal that the fixing device control unit finishes fixing, the energy supply device control unit controls the height adjustment module to move upwards until an illumination sensor in an induction module on the solar folding plate senses sunlight, and the height adjustment action is stopped; secondly, the folding module acts, the folding sliding blocks move upwards on the sliding rails, so that the long rods and the short rods move to control the solar folding plates to unfold the first side plate, the second side plate, the third side plate and the fourth side plate, and when the four side plates are positioned on the same horizontal plane, the first display plate and the second display plate in the first side plate and the third display plate and the fourth display plate in the second side plate unfold to two sides simultaneously to form a whole rectangular-surface solar panel; finally, the first angle module and the second angle module in the angle adjustment module act cooperatively to ensure that the whole rectangular surface can be irradiated by sunlight;

s1.3, firstly, placing the lure into a lure vacuum storage cabin in a trapping device, turning on a trap lamp in a lure module, and further setting lure filling or replacing time of an automatic filling module through a main control computer; secondly, opening a cabin door of the gas filling chamber, putting solid particles attracting pests into the gas filling chamber, and closing the cabin door; finally, placing the recovery box for recovering the pests under the gravity sensing cabin door;

through the steps, the installation and the arrangement of the pest trapping system with the automatic soil-entering filling trapping core are completed, and the pest trapping system can start to work;

s2: pest trapping system operation

S2.1, the trapping device automatically fills or replaces trapping cores periodically according to trapping core filling time set by a user; firstly, a recovery cabin door of an automatic filling module is opened for a preset time, and then the cabin door is closed; then the filling cabin door is opened, the lure in the lure vacuum storage cabin falls to the lure fixing groove along the cabin door along the lure conveying pipe, so that the placement of the lure in the lure module is completed, the lure smell is dispersed to the periphery of the pest trapping system through air, and when the pest approaches to the vicinity of the pest trapping system, the lure smell further passes through the lure module beside the trapping device, and is collided to the baffle under the double attraction of smell and lamplight and falls to the pest killing device;

s2.2, the pest killing device uses a detection module to shoot the fallen pests, uploads the pictures to an image processing unit in a main control computer, performs image preprocessing, and then further delivers the pictures to a data processing unit to judge and classify the pests and judge pest hazard early warning grades, and transmits the processing results to an information storage unit or uploads the processing results to a supervision terminal matched with the pest trapping system in real time;

s2.3, when pests are piled up at the bottom of the pest killing chamber, and the weight of the pests on the upper side of the gravity sensing cabin door in the recovery device reaches the threshold value of the gravity sensing cabin door pressure sensor, the gravity sensing cabin door is automatically opened, and piled pest carcasses automatically drop into a recovery box right below the gravity sensing cabin door;

the whole pest trapping work is completed through the steps.

10. The intelligent trapping method for agricultural and forestry pests according to claim 9, further comprising, after completing one complete pest trapping operation:

s3: dismantling system by using one key of main control computer

S3.1, the main control computer sends a dismantling instruction to the energy supply device control unit; firstly, an energy supply device control unit controls an angle adjustment module to correct an angle so that a rectangular surface is perpendicular to a trap body; secondly, the energy supply device control unit controls the first display board and the second display board in the first side board and the third display board and the fourth display board in the second side board to retract simultaneously; then, the folding module acts to enable the folding sliding block to move downwards along the sliding rail, and the long rod and the short rod are controlled to move downwards to recover the first side plate, the second side plate, the third side plate and the fourth side plate; finally, the height adjusting module controls the energy supply device to be reduced to the lowest position;

s3.2, after the solar folding plate is retracted, the fixing device control unit further sends a dismantling instruction to the fixing device; firstly, retracting the circumference distribution probes from the circumference of the ground to the inside of the drill bit; secondly, the drill bit motor reverses, so that the drill bit is driven to reverse and leave the ground, and the trap body is gradually retracted; finally, the fixing device control unit controls the ground contact support to reversely lift off;

the removal of the pest trapping system is accomplished by the above steps.